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    ASTM D7228-2006a(2015) 2177 Standard Test Method for Prediction of Asphalt-Bound Pavement Layer Temperatures《预测沥青铺装层的约束温度的标准试验方法》.pdf

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    ASTM D7228-2006a(2015) 2177 Standard Test Method for Prediction of Asphalt-Bound Pavement Layer Temperatures《预测沥青铺装层的约束温度的标准试验方法》.pdf

    1、Designation: D7228 06a (Reapproved 2015)Standard Test Method forPrediction of Asphalt-Bound Pavement Layer Temperatures1This standard is issued under the fixed designation D7228; the number immediately following the designation indicates the year oforiginal adoption or, in the case of revision, the

    2、year of last revision. A number in parentheses indicates the year of last reapproval. Asuperscript epsilon () indicates an editorial change since the last revision or reapproval.1. Scope1.1 This test method covers a means of predicting tempera-tures within the asphalt-bound layer(s) of a flexible pa

    3、vementsection.1.2 Deflection testing commonly involves the measurementof pavement surface temperatures. This standard is based ontemperature relationships developed as part of the FederalHighway Administration (FHWA) Long Term Pavement Per-formance (LTPP) Seasonal Monitoring Program.2. Referenced Do

    4、cuments2.1 ASTM Standards:2D4694 Test Method for Deflections with a Falling-Weight-Type Impulse Load DeviceD4695 Guide for General Pavement Deflection Measure-mentsD4602 Guide for Nondestructive Testing of Pavements Us-ing Cyclic-Loading Dynamic Deflection EquipmentD5858 Guide for Calculating In Sit

    5、u Equivalent ElasticModuli of Pavement Materials Using Layered ElasticTheory2.2 AASHTO Standards:3T256-00 Standard Method of Test for Pavement DeflectionMeasurementsT317-02 Standard Method of Test for Prediction of Asphalt-Bound Pavement Layer Temperatures2.3 Federal Highway Administration:4FHWA-RD-

    6、98-085, Temperature Predictions and Adjust-ment Factors for Asphalt Pavements, June 2000LTPP Guide to Asphalt Temperature Prediction and Correc-tion, Online Temperature Prediction and CorrectionGuideTOC, November 20023. Terminology3.1 Definitions of Terms Specific to This Standard:3.1.1 BELLS an acr

    7、onym based on the initials of the fourdevelopers of the method: Baltzer, Ertman-Larsen, Lukanen,and Stubstad.3.1.2 depththe distance below the surface of the top layerof asphalt.3.1.3 1-day air temperaturethe average of the minimumand maximum air temperatures at the location of testing duringthe pre

    8、vious complete 24-hour day.4. Summary of Test Method4.1 Input Data Elements:4.1.1 IR TemperatureThe exposed surface temperature ofan asphalt pavement is measured, preferably with an infrared(IR) temperature sensing device that is properly calibrated.4.1.2 Time of DayThe time of day the temperature m

    9、ea-surement takes place is recorded.4.1.3 1-Day TemperatureThe average 1-day air tempera-ture of the previous complete 24-hour day is determined andrecorded.4.1.4 Pavement DepthThe depth at which an estimate ofthe asphalt layer temperature is required is specified.4.2 The input data elements are ent

    10、ered into a regressionformula that predicts the temperature within the asphalt pave-ment at depth.5. Significance and Use5.1 Analysis of deflection data from asphalt pavementsalmost always requires that the raw deflections or the analysisresults from the load-deflection data be adjusted for the effe

    11、ctsof pavement surface course temperature. Measuring the tem-perature at-depth normally requires that a hole be drilled intothe pavement, partially filled with fluid, and the temperaturemeasured with a hand-held device.Alternatively, thermistors orother temperature instrumentation may be permanently

    12、 in-stalled at various locations.5.2 Current deflection testing equipment is often equippedwith surface temperature sensing devices, for example an1This test method is under the jurisdiction of ASTM Committee E17 on Vehicle- Pavement Systems and is the direct responsibility of Subcommittee E17.41 on

    13、Pavement Testing and Evaluation.Current edition approved Sept. 1, 2015. Published December 2015. Originallyapproved in 2006. Last previous edition approved in 2011 as D7228 06A(2011).DOI: 10.1520/D7228-06AR15.2For referenced ASTM standards, visit the ASTM website, www.astm.org, orcontact ASTM Custom

    14、er Service at serviceastm.org. For Annual Book of ASTMStandards volume information, refer to the standards Document Summary page onthe ASTM website.3Available from American Association of State Highway and TransportationOfficials (AASHTO), 444 N. Capitol St., NW, Suite 249, Washington, DC 20001.4Ava

    15、ilable from Federal Highway Administration (FHWA) 400 Seventh Street,SW Washington, DC 20590.Copyright ASTM International, 100 Barr Harbor Drive, PO Box C700, West Conshohocken, PA 19428-2959. United States1infrared thermometer that measures the surface temperature atevery test location. To adequate

    16、ly adjust the deflection ordeflection results for the effects of temperature, the temperatureat some depth must be known.5.3 This test method provides a means of estimating thetemperature at-depth from the pavement surface temperature,the time of day, the previous days high and low airtemperatures,

    17、and the desired depth where the temperature is tobe estimated. Utilization of this method results in a significantsavings in time over the conventional practice of manuallydrilling holes into the pavement, and it results in a significantincrease in the volume of temperature data (one pavementtempera

    18、ture for each test point) and the ability to recordtemperature variations between test points.6. Apparatus6.1 Surface Temperature Measurement DeviceThe surfacetemperature measurement device can be an infrared (IR)thermometer mounted on a deflection device, a hand-held IRthermometer, or a surface con

    19、tact thermometer. The tempera-ture measurement device should be calibrated according to themanufacturers recommendations.7. Calculation7.1 BELLS MethodThe BELLS method for productiontesting (called BELLS3 in other publications) has been derivedbased on temperature measurements taken on pavement sur-

    20、faces that have been shaded for a short period (less than oneminute) of time. The following equation is valid for approxi-mately 30 seconds of shading:Td5 0.9510.892*IR1$logd! 2 1.25% $20.448*IR10.621*1 2 day!11.83* sin hr182 15.5!%10.042*IR* sin hr182 13.5! (1)where:Td= pavement temperature at dept

    21、h d, C,IR = infrared surface temperature, C,log = base 10 logarithm,d = depth at which asphalt temperature is to bepredicted, mm,1-day = average of the minimum and maximum airtemperatures, C, for the previous complete 24-hourday before testing,sin = sin function in 18-hour clock system, with 2radian

    22、s equal to one 18-hour cycle, andhr18= time of day, in 24-hour system, but calculated usingan 18-hour temperature rise and fall cycle, asindicated in 7.1.1 and 7.1.2.7.1.1 When using the sin (hr18 15.5) decimal timefunction, only use times from 11:00 to 05:00 hrs. If the actualtime is not within thi

    23、s time range, then calculate the sin as if thetime is 11:00 hrs (where the sin = 1). If the time is betweenmidnight and 05:00 hrs, add 24 to the actual decimal time.Then calculate as follows: If the time is 13:15, then in decimalform, 13.25 15.50 = 2.25; 2.25/18 = 0.125; 0.125 2= 0.785 radians; sin

    24、(0.785) = 0.707. In this case an 18 hoursin function is assumed, with a flat (= 1) sin segment between05:00 and 11:00 hours.7.1.2 When using the sin (hr18 13.5) decimal function,only use times from 09:00 to 03:00 hrs. If the actual time is notwithin this time range, then calculate the sin as if the

    25、time is09:00 hrs (where the sin = 1). If the time is between midnightand 03:00 hrs, add 24 to the actual (decimal) time. Thencalculate as follows: If the time is 15:08, then in decimal form,15.13 13.50 = 1.63; 1.63/18 = 0.091; 0.091 2 = 0.569radians; sin (0.569) = 0.539. In this case an 18 hour sinf

    26、unction is assumed, with a flat (= 1) sin segment between03:00 and 09:00 hours.NOTE 1BELLS has been verified using the LTPPdatabase at both middepth and third depth temperature points.The regressions derived from thedata at either depth were virtually identical; therefore, they were combinedin deriv

    27、ing the BELLS equations. The asphalt layer thicknesses covered inthe database were primarily between 50 mm and 300 mm; thereforetemperature prediction depths within the AC layer should be limited tobetween 25 mm and 150 mm beneath the surface. Although this testmethod may be used for at-depth temper

    28、atures greater than 150 mmthrough extrapolation, the results have not been verified or calibrated todate. Since the equations boundary condition at depth=0isinconsistentwith the input IR temperature value, the determination of an at-depthpayment temperature less than 25 mm is not recommended.NOTE 2T

    29、he database used to derive the BELLS equations consistsprimarily of data gathered during daylight hours between approximately06:00 hrs and 18:00 hrs.Although the test method may be used outside ofthis time frame through extrapolation of the 18-hour sinusoidalrelationships, the results have not been

    30、verified or calibrated to date.8. Report8.1 The type of temperature measuring device, the measure-ment shading conditions, the time of measurement, the date ofmeasurement, and the depth at which the temperature wascalculated should be identified.9. Precision and Bias9.1 A precision and bias statemen

    31、t for this standard has notbeen developed at this time. Therefore, this standard should notbe used for acceptance or rejection of a material for purchasingpurposes.NOTE 3The BELLS equation for production testing (BELLS3) wasderived using the LTPP database (10 304 observations; R-squared =0.975). The

    32、 regressions standard estimate of error was 61.9C based onan adjustment using the LTPP database for 30 seconds of shading. Usingthe regression approach on this database, by definition there was no bias.10. Keywords10.1 asphalt temperature; backcalculation; Benkelmanbeam; dynaflect; falling weight de

    33、flectometer; FWD; layermoduli; pavement temperature correction; road raterD7228 06a (2015)2APPENDIX(Nonmandatory Information)X1. EXAMPLE SOURCE CODE FOR CALCULATING THE PREDICTED ASPHALT TEMPERATUREBY THE BELLS METHODX1.1 ExplanationX1.1.1 PurposeThe source code is presented to illustrateapplication

    34、 of the temperature prediction equations, particu-larly the application of the 18-hour sin functions.X1.1.2 LanguageThe source code is written in BASICand can be run on a number of basic interpreters or compilers,or easily converted to other computer languages.X1.2 Example Source Code Listing X1.2Pr

    35、ogram to illustrate the implementation of the BELLS3 equationfor routine testing with approximately 30 seconds of surface shade.*CLSINPUT 9Input Surface Temperature 9;irINPUT 9Input Hour of test 9;hrINPUT 9Input Minutes past the hour 9;minINPUT 9Input the depth for predicting the asphalt temperature

    36、 9;dINPUT 9Input average air temperature for the day before the testdate 9;airdecimal.hrs = hr + min / 60IF decimal.hrs 11 OR decimal.hrs 9ORdecimal.hrs 3 THENIF decimal.hrs 3 THEN decimal.hrs = decimal.hrs + 24sine13.5 = SIN(2 * pi * (decimal.hrs -13.5) / 18)ELSEsine13.5 = -1END IFtd=0.95+0.892*irl

    37、ogdepth = LOG (d) / LOG (10) 1.25firstbracket = 0.448 * ir + 0.621 * air + 1.83 * sine15.5last.term = 0.042 * ir * sine13.5td = td + logdepth * firstbracket + last.termX1.3 Example Temperature CalculationX1.3.1 The following link, LTPP Guide to Asphalt Tem-perature Prediction and Correction, courtes

    38、y of FHWA, pro-vides a spreadsheet macro to calculate any at-depth pavementtemperature: http:/www.tfhrc.gov/pavement/ltpp/fwdcd/index.htm. When using this link, refer to the “BELLS3”calculation cells for routine pavement testing methods.IR temperature = 12.5CTime of day = 08:10 hrsMid-depth of pavem

    39、ent surface course = 75 mmPrevious 1-day average air temperature = 23CT75 mm5 0.9510.892*12.51$log75! 2 1.25% 3 $20.448*12.510.621*23!11.83* sin 2 3 11.00 2 15.5! /18%10.042*12.5* sin 2 3 08.17 2 13.5! / 18 (X1.1)T75 mm5 0.9510.892*12.51$1.875 2 1.25% 3 $20.448*12.510.621*23!11.83*21%10,042*12.5*20.

    40、958 (X1.2)T75 mm5 0.95111.1510.625 3 $25.6114.28 2 1.83% 2 0.50 5 15.9C(X1.3)ASTM International takes no position respecting the validity of any patent rights asserted in connection with any item mentionedin this standard. Users of this standard are expressly advised that determination of the validi

    41、ty of any such patent rights, and the riskof infringement of such rights, are entirely their own responsibility.This standard is subject to revision at any time by the responsible technical committee and must be reviewed every five years andif not revised, either reapproved or withdrawn. Your commen

    42、ts are invited either for revision of this standard or for additional standardsand should be addressed to ASTM International Headquarters. Your comments will receive careful consideration at a meeting of theresponsible technical committee, which you may attend. If you feel that your comments have no

    43、t received a fair hearing you shouldmake your views known to the ASTM Committee on Standards, at the address shown below.This standard is copyrighted by ASTM International, 100 Barr Harbor Drive, PO Box C700, West Conshohocken, PA 19428-2959,United States. Individual reprints (single or multiple cop

    44、ies) of this standard may be obtained by contacting ASTM at the aboveaddress or at 610-832-9585 (phone), 610-832-9555 (fax), or serviceastm.org (e-mail); or through the ASTM website(www.astm.org). Permission rights to photocopy the standard may also be secured from the Copyright Clearance Center, 222Rosewood Drive, Danvers, MA 01923, Tel: (978) 646-2600; http:/ 06a (2015)3


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